SN 2008aq , the SIMBAD biblio

SN 2008aq , the SIMBAD biblio (47 results) C.D.S. - SIMBAD4 rel 1.8 - 2024.04.19CEST20:27:24

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Bibcode/DOI Score in Title|Abstract|
Keywords 		in a table in teXt, Caption, ... Nb occurence Nb objects in ref Citations
(from ADS) 		Title First 3 Authors
2008CBET.1271....1C 38 T       O X         2 2 Supernovae 2008an and 2008aq. CHU J., LI W., FILIPPENKO A.V., et al.
2008CBET.1271....2B 38 T       O X         3 1 Supernovae 2008an and 2008aq. BLONDIN S. and NARAYAN G.
2008ATel.1403....1B 1 1 2 Swift observations of SN 2008aq. BROWN P.J. and IMMLER S.
2009ApJ...696..713S 227           X C       5 52 100 The He-rich core-collapse supernova 2007Y: observations from X-ray to radio wavelengths. STRITZINGER M., MAZZALI P., PHILLIPS M.M., et al.
2009ApJ...696..870D viz 94       D     X         3 152 1110 First results from the Catalina real-time transient survey. DRAKE A.J., DJORGOVSKI S.G., MAHABAL A., et al.
2009ApJ...704L.118R 39           X         1 14 40 Multi-wavelength properties of the type IIb SN 2008ax. ROMING P.W.A., PRITCHARD T.A., BROWN P.J., et al.
2010MNRAS.402..161M 15       D               2 60 29 Characteristic velocities of stripped-envelope core-collapse supernova cores. MAURER J.I., MAZZALI P.A., DENG J., et al.
2010MNRAS.409.1441M 78           X         2 7 31 Hydrogen and helium in the late phase of supernovae of type IIb. MAURER I., MAZZALI P.A., TAUBENBERGER S., et al.
2011MNRAS.412.1419L viz 15       D               1 1826 164 Nearby supernova rates from the Lick observatory supernova search – I. The methods and data base. LEAMAN J., LI W., CHORNOCK R., et al.
2012A&A...538A.120L viz 15       D               1 5598 37 A unified supernova catalogue. LENNARZ D., ALTMANN D. and WIEBUSCH C.
2012MNRAS.424.1297O 77           X         2 14 8 Multiwavelength observations of the type IIb supernova 2009mg. OATES S.R., BAYLESS A.J., STRITZINGER M.D., et al.
2012MNRAS.424.1372A 15       D               1 283 140 Progenitor mass constraints for core-collapse supernovae from correlations with host galaxy star formation. ANDERSON J.P., HABERGHAM S.M., JAMES P.A., et al.
2014AJ....147...99M viz 16       D               3 179 155 Optical spectra of 73 stripped-envelope core-collapse supernovae. MODJAZ M., BLONDIN S., KIRSHNER R.P., et al.
2014ApJ...787..157P 16       D               1 51 35 Bolometric and UV light curves of core-collapse supernovae. PRITCHARD T.A., ROMING P.W.A., BROWN P.J., et al.
2014ApJS..213...19B viz 134       D     X         4 129 124 Multi-color optical and near-infrared light curves of 64 stripped-envelope core-collapse supernovae. BIANCO F.B., MODJAZ M., HICKEN M., et al.
2014ApJ...795..142G viz 16       D               1 448 7 Defining photometric peculiar type Ia supernovae. GONZALEZ-GAITAN S., HSIAO E.Y., PIGNATA G., et al.
2016MNRAS.460.1500S 40           X         1 26 11 The continuing story of SN IIb 2013df: new optical and IR observations and analysis. SZALAI T., VINKO J., NAGY A.P., et al.
2016MNRAS.461.2019S 1806 T K A D     X C F     43 9 4 Spectropolarimetry of the Type IIb
SN 2008aq*. 		STEVANCE H.F., MAUND J.R., BAADE D., et al.
2017ApJ...836L..12T 128           X C       2 9 58 The progenitor and early evolution of the Type IIb SN 2016gkg. TARTAGLIA L., FRASER M., SAND D.J., et al.
2017MNRAS.469.1897S 41           X         1 50 5 The evolution of the 3D shape of the broad-lined Type Ic SN 2014ad. STEVANCE H.F., MAUND J.R., BAADE D., et al.
2018A&A...609A.134S viz 65 36 The Carnegie Supernova Project I. Photometry data release of low-redshift stripped-envelope supernovae. STRITZINGER M.D., ANDERSON J.P., CONTRERAS C., et al.
2018A&A...609A.135S 42           X         1 40 60 The Carnegie Supernova Project I. Methods to estimate host-galaxy reddening of stripped-envelope supernovae. STRITZINGER M.D., TADDIA F., BURNS C.R., et al.
2018A&A...609A.136T 1 70 126 The Carnegie Supernova Project I. Analysis of stripped-envelope supernova light curves. TADDIA F., STRITZINGER M.D., BERSTEN M., et al.
2016ATel.9573....1V 40           X         1 6 2 Further Classification of SN 2016gkg as a Probable Type IIb Supernova. VAN DYK S.D., ZHENG W., SHIVVERS I., et al.
2019MNRAS.482.1545S viz 17       D               1 320 54 The Berkeley sample of stripped-envelope supernovae. SHIVVERS I., FILIPPENKO A.V., SILVERMAN J.M., et al.
2018PASP..130k4504P 16       D               1 116 10 Extending supernova spectral templates for next-generation Space Telescope observations. PIEREL J.D.R., RODNEY S., AVELINO A., et al.
2019MNRAS.485..102S 334           X C       7 17 2 The 3D shape of Type IIb SN 2011hs. STEVANCE H.F., MAUND J.R., BAADE D., et al.
2019MNRAS.485.1559P 59       D     X         2 106 89 Investigating the properties of stripped-envelope supernovae: what are the implications for their progenitors? PRENTICE S.J., ASHALL C., JAMES P.A., et al.
2019MNRAS.488.4239P viz 17       D               4 106 19 Comparison of the optical light curves of hydrogen-rich and hydrogen-poor type II supernovae. PESSI P.J., FOLATELLI G., ANDERSON J.P., et al.
2019MNRAS.489.5802V 17       D               1 72 28 Spectrophotometric templates for core-collapse supernovae and their application in simulations of time-domain surveys. VINCENZI M., SULLIVAN M., FIRTH R.E., et al.
2020MNRAS.494..885S 128           X         3 13 ~ The shape of SN 1993J re-analysed. STEVANCE H.F., BAADE D., BRUTEN J.R., et al.
2020MNRAS.496.4517S 187       D     X C       4 46 22 The γ-ray deposition histories of core-collapse supernovae. SHARON A. and KUSHNIR D.
2020A&A...641A.177M viz 17       D               2 288 ~ Stripped-envelope core-collapse supernova 56Ni masses. Persistently larger values than supernovae type II. MEZA N. and ANDERSON J.P.
2021MNRAS.501.5797B 17       D               1 181 ~ Optical and spectral observations and hydrodynamic modelling of type IIb supernova 2017gpn. BALAKINA E.A., PRUZHINSKAYA M.V., MOSKVITIN A.S., et al.
2021MNRAS.505.3950G 104       D         F     4 37 ~ Understanding the extreme luminosity of DES14X2fna. GRAYLING M., GUTIERREZ C.P., SULLIVAN M., et al.
2022MNRAS.512.3195Z 108       D         F     5 148 7 The Lick Observatory Supernova Search follow-up program: photometry data release of 70 SESNe. ZHENG W., STAHL B.E., DE JAEGER T., et al.
2022ApJ...928...77L 108       D       C       3 69 ~ Using the Optical-NIR Spectral Energy Distributions to Search for the Evidence of Dust Formation of 66 Supernovae. LI J.-Y., WANG S.-Q., GAN W.-P., et al.
2022ApJ...928..151F 63       D     X         2 201 16 Statistical Properties of the Nebular Spectra of 103 Stripped-envelope Core-collapse Supernovae. FANG Q., MAEDA K., KUNCARAYAKTI H., et al.
2022ApJ...930...31B 18       D               1 90 3 Characterization of Supernovae Based on the Spectral-Temporal Energy Distribution: Two Possible SN Ib Subtypes. BENGYAT O. and GAL-YAM A.
2022ApJ...931..153S 18       D               1 84 5 Constraints on the Explosion Timescale of Core-collapse Supernovae Based on Systematic Analysis of Light Curves. SAITO S., TANAKA M., SAWADA R., et al.
2022MNRAS.517.1750A 179             C F     2 21 4 SN 2016iyc: a Type IIb supernova arising from a low-mass progenitor. ARYAN A., PANDEY S.B., ZHENG W., et al.
2023ApJ...942L..18H 47           X         1 9 1 JWST Imaging of the Cartwheel Galaxy Reveals Dust Associated with SN 2021afdx. HOSSEINZADEH G., SAND D.J., JENCSON J.E., et al.
2023MNRAS.518.5741S 252       D     X C       5 22 5 What can Gaussian processes really tell us about supernova light curves? Consequences for Type II(b) morphologies and genealogies. STEVANCE H.F. and LEE A.
2023A&A...675A..82S 252       D     X         6 54 ~ The Carnegie Supernova Project I Optical spectroscopy of stripped-envelope supernovae. STRITZINGER M.D., HOLMBO S., MORRELL N., et al.
2023A&A...675A..83H 19       D               1 38 ~ The Carnegie Supernova Project I Spectroscopic analysis of stripped-envelope supernovae. HOLMBO S., STRITZINGER M.D., KARAMEHMETOGLU E., et al.
2023ApJ...955...71R 19       D               1 65 ~ The Iron Yield of Core-collapse Supernovae. RODRIGUEZ O., MAOZ D. and NAKAR E.
2024NatAs...8..111F 20       D               2 85 ~ An aspherical distribution for the explosive burning ash of core-collapse supernovae. FANG Q., MAEDA K., KUNCARAYAKTI H., et al.

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